Abstract
This work examines volume changes at the sub-micron scale, induced photochemically in polymeric matrices doped with photochromic molecules. To achieve this, spiropyran is employed as a photochromic molecule embedded in polyethylmethacrylate-co-methylacrylate (PEMMA) matrices. Spiropyran can be reversibly interconverted to merocyanine, its coloured isomer, by irradiation at 248 nm and 532 nm, correspondingly. It is demonstrated that the interconversion between the two forms activates volume changes in the polymer matrix. To this end, off-axis reflection holographic interferometry is employed as a sensitive probe of the induced volume changes. This scheme provides a novel method for controlling sub-micron volume changes reversibly, as required in several microactuator designs.
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